module Network.Wai.Handler.Warp.Recv (
receive
, receiveBuf
, makeReceiveN
, makePlainReceiveN
, spell
) where
#if __GLASGOW_HASKELL__ < 709
import Control.Applicative ((<$>))
#endif
import qualified Control.Exception as E
import qualified Data.ByteString as BS
import Data.ByteString.Internal (ByteString(..))
import Data.Word (Word8)
import Foreign.C.Error (eAGAIN, getErrno, throwErrno)
import Foreign.C.Types
import Foreign.ForeignPtr (withForeignPtr)
import Foreign.Ptr (Ptr, castPtr, plusPtr)
import GHC.Conc (threadWaitRead)
import Network.Socket (Socket, fdSocket)
import Network.Wai.Handler.Warp.Buffer
import Network.Wai.Handler.Warp.IORef
import Network.Wai.Handler.Warp.Types
import System.Posix.Types (Fd(..))
#ifdef mingw32_HOST_OS
import GHC.IO.FD (FD(..), readRawBufferPtr)
import Network.Wai.Handler.Warp.Windows
#endif
makeReceiveN :: ByteString -> Recv -> RecvBuf -> IO (BufSize -> IO ByteString)
makeReceiveN bs0 recv recvBuf = do
ref <- newIORef bs0
return $ receiveN ref recv recvBuf
makePlainReceiveN :: Socket -> ByteString -> IO (BufSize -> IO ByteString)
makePlainReceiveN s bs0 = do
ref <- newIORef bs0
pool <- newBufferPool
return $ receiveN ref (receive s pool) (receiveBuf s)
receiveN :: IORef ByteString -> Recv -> RecvBuf -> BufSize -> IO ByteString
receiveN ref recv recvBuf size = E.handle handler $ do
cached <- readIORef ref
(bs, leftover) <- spell cached size recv recvBuf
writeIORef ref leftover
return bs
where
handler :: E.SomeException -> IO ByteString
handler _ = return ""
spell :: ByteString -> BufSize -> IO ByteString -> RecvBuf -> IO (ByteString, ByteString)
spell init0 siz0 recv recvBuf
| siz0 <= len0 = return $ BS.splitAt siz0 init0
| siz0 <= 4096 = loop [init0] (siz0 len0)
| otherwise = do
bs@(PS fptr _ _) <- mallocBS siz0
withForeignPtr fptr $ \ptr -> do
ptr' <- copy ptr init0
full <- recvBuf ptr' (siz0 len0)
if full then
return (bs, "")
else
return ("", "")
where
len0 = BS.length init0
loop bss siz = do
bs <- recv
let len = BS.length bs
if len == 0 then
return ("", "")
else if len >= siz then do
let (consume, leftover) = BS.splitAt siz bs
ret = BS.concat $ reverse (consume : bss)
return (ret, leftover)
else do
let bss' = bs : bss
siz' = siz len
loop bss' siz'
receive :: Socket -> BufferPool -> Recv
receive sock pool = withBufferPool pool $ \ (ptr, size) -> do
let sock' = fdSocket sock
size' = fromIntegral size
fromIntegral <$> receiveloop sock' ptr size'
receiveBuf :: Socket -> RecvBuf
receiveBuf sock buf0 siz0 = loop buf0 siz0
where
loop _ 0 = return True
loop buf siz = do
n <- fromIntegral <$> receiveloop fd buf (fromIntegral siz)
if n == 0 then
return False
else
loop (buf `plusPtr` n) (siz n)
fd = fdSocket sock
receiveloop :: CInt -> Ptr Word8 -> CSize -> IO CInt
receiveloop sock ptr size = do
#ifdef mingw32_HOST_OS
bytes <- windowsThreadBlockHack $ fromIntegral <$> readRawBufferPtr "recv" (FD sock 1) (castPtr ptr) 0 size
#else
bytes <- c_recv sock (castPtr ptr) size 0
#endif
if bytes == 1 then do
errno <- getErrno
if errno == eAGAIN then do
threadWaitRead (Fd sock)
receiveloop sock ptr size
else
throwErrno "receiveloop"
else
return bytes
foreign import ccall unsafe "recv"
c_recv :: CInt -> Ptr CChar -> CSize -> CInt -> IO CInt